David's answer to another question shows a Delphi DLL function returning a WideString. I never thought that was possible without the use of
My test DLL:
function SomeFunction1: Widestring; stdcall; begin Result := 'Hello'; end; function SomeFunction2(var OutVar: Widestring): BOOL; stdcall; begin OutVar := 'Hello'; Result := True; end;
My caller program:
function SomeFunction1: WideString; stdcall; external 'Test.dll'; function SomeFunction2(var OutVar: Widestring): BOOL; stdcall; external 'Test.dll'; procedure TForm1.Button1Click(Sender: TObject); var W: WideString; begin ShowMessage(SomeFunction1); SomeFunction2(W); ShowMessage(W); end;
It works, and I don't understand how. The convention I know of is the one used by the Windows API, for example Windows
function GetClassNameW(hWnd: HWND; lpClassName: PWideChar; nMaxCount: Integer): Integer; stdcall;
Meaning the caller provides the buffer, and the maximum length. The Windows DLL writes to that buffer with the length limitation. The caller is allocates and deallocates the memory.
Another option is that the DLL allocate the memory for example by using
LocalAlloc, and the Caller deallocates the memory by calling
How does the memory allocation and deallocation work with my DLL example? Does the "magic" happen because the result is
BSTR)? And why aren't Windows APIs declared with such convenient convention? (Are there any known Win32 APIs that uses such convention?)
I Tested the DLL with C#.
SomeFunction1 causes an AV (
Attempted to read or write protected memory).
SomeFunction2 works fine.
[DllImport(@"Test.dll")] [return: MarshalAs(UnmanagedType.BStr)] static extern string SomeFunction1(); [DllImport(@"Test.dll")] [return: MarshalAs(UnmanagedType.Bool)] static extern bool SomeFunction2([MarshalAs(UnmanagedType.BStr)] out string res); ... string s; SomeFunction2(out s); MessageBox.Show(s); // works ok MessageBox.Show(SomeFunction1()); // fails with AV!
Here is a followup.